职  称:教授
研究方向:气候变化、树轮气候学、树轮生态学
办公电话:043185099550
办公地点:地理学院308

个人简历

杜海波,男,1987年5月生,博士,教授,博士生导师,国际景观生态学会中国分会理事会理事,主要研究方向是气候变化、树轮气候学、树轮生态学。5年内发表SCI论文30余篇,包括以第一作者和通讯作者身份在《Global Change Biology》、《Bulletin of the American Meteorological Society》、《Geophysical Research Letters》、《Soil Biology and Biochemistry》、《Agricultural and Forest Meteorology》、《Science of The Total Environment》、《CATENA》、《Journal of Geophysical Research: Atmospheres》等期刊发表SCI论文15余篇。主持国家自然科学基金面上项目1项,国家自然科学基金青年项目1项,吉林省科技厅自然科学基金1项,吉林省优秀青年科学基金1项,并以骨干身份参加了国家十三五重点研发计划项目和多项国家自然科学基金面上项目。 欢迎拟读研的喜欢气候变化、树木年轮学、植被气候关系、长白山^_^的同学联系。邮箱:duhb655@nenu.edu.cn 学习工作经历: 2023/07-至今,东北师范大学,地理科学学院,教授 2018/09-2019/09,School of Natural Resources,University of Missouri,博士后 2018/03-2023/07,东北师范大学,地理科学学院,副教授 2015/07-2018/03,东北师范大学,地理科学学院,师资博后 2011/06-2015/06,东北师范大学,地理科学学院,博士 2009/09-2011/06,东北师范大学,城市与环境科学学院,硕士(转博连读) 2005/09-2009/07,东北师范大学,城市与环境科学学院,本科 项目: 1. 国家自然科学基金面上项目,长白山森林主要建群种径向生长对水热胁迫变化的响应研究,2023/01-2026/12,50万元,在研,主持; 2. 科技部国家重点研发项目,长白山区水资源高效利用及其安全保障技术研发与应用,2019/07-2022/06,277万元,结题,参加; 3. 吉林省优秀青年人才基金项目,长白山树种线对气候变化响应研究,2018/01-2019/12,10万元,结题,主持; 4. 国家自然科学基金青年基金,基于炭化木的长白山火山喷发测年与植被重建,2017/01-2019/12,22万元,结题,主持; 5. 科技部国家重点研发项目,中高纬度湿地景观格局演变机制,2016/07-2021/06,600万元,结题,参加; 6. 国家自然科学基金面上项目,长白山山地苔原带植被气候变化响应与监测研究,2015/01-2018/12,98万元,结题,参加。 指导学生发表的文章: [20] Xi Qi, Paolo Cherubini, Kerstin Treydte, Mai-He Li, Zhengfang Wu, Hong S. He, Haibo Du*, Keyan Fang, Matthias Saurer (2023). "Growth responses to climate warming and their physiological mechanisms differ between mature and young larch trees in a boreal permafrost region." Agricultural and Forest Meteorology 343: 109765, doi: 10.1016/j.agrformet.2023.109765. [19] Huang, L., H. Du*, et al (2023). "Observed and projected changes in wet and dry spells for the major river basins in East Asia." International Journal of Climatology 43: 5369-5386, doi: 10.1002/joc.8151. [18] Li, N., H. Du*, M.-H. Li, R. Na, R. Dong, H. S. He, S. Zong, L. Huang and Z. Wu (2023). "Deyeuxia angustifolia upward migration and nitrogen deposition change soil microbial community structure in an alpine tundra." Soil Biology and Biochemistry 180: 109009. [17] Huang, L., H. Du*, Y. Dang, H. S. He, R. Na and Z. Wu (2022). "More frequent consecutive extreme precipitation in the dry regions of China." International Journal of Climatology 42(16): 9583-9594. [16] Qi, X., K. Fang, H. Du*, J. He, H. He and Z. Wu (2022). "Age-related growth responses of birch to warming along an elevational gradient on Changbai Mountain." European Journal of Forest Research 141(2): 293-305. [15] Guo, X., Y. Wang, L. Wang, H. Sun, H. Du, Z. Wu, H. He and W. Zhou (2021). "Spatiotemporal characteristics of interday temperature fluctuations across the Loess Plateau of China." International Journal of Climatology 41(3): 1821-1838. [14] Na, R., L. Na, H. Du, H. S. He, Y. Shan, S. Zong, L. Huang, Y. Yang and Z. Wu (2021) "Vegetation Greenness Variations and Response to Climate Change in the Arid and Semi-Arid Transition Zone of the Mongo-Lian Plateau during 1982–2015." Remote Sensing 13, 4066 DOI: 10.3390/rs13204066. [13] Yang, Y., Z. Wu, L. Guo, H. S. He, Y. Ling, L. Wang, S. Zong, R. Na, H. Du* and M.-H. Li (2020). "Effects of winter chilling vs. spring forcing on the spring phenology of trees in a cold region and a warmer reference region." Science of The Total Environment 725: 138323. [12] 陈星任, 杨岳, 何佳男, 齐熙, 吴正方, 杜海波* (2020). "近 60 年中国持续极端降水时空变化特征及其环流因素分析." 长江流域资源与环境 29(9): 2068-2081. [11] Han, J., H. Du*, Z. Wu and H. S. He (2019). "Changes in Extreme Precipitation Over Dry and Wet Regions of China During 1961-2014." Journal of Geophysical Research: Atmospheres 124(11): 5847-5859. [10] Na, R., H. Du*, L. Na, Y. Shan, H. S. He, Z. Wu, S. Zong, Y. Yang and L. Huang (2019). "Spatiotemporal changes in the Aeolian desertification of Hulunbuir Grassland and its driving factors in China during 1980–2015." CATENA 182: 104123. [9] Guo, X., Z. Wu, H. He, H. Du, L. Wang, Y. Yang and W. Zhao (2018). "Variations in the start, end, and length of extreme precipitation period across China." International Journal of Climatology 38(5): 2423-2434. [8] Wang, L., W. J. Wang, Z. Wu, H. Du, X. Shen and S. Ma (2018). "Spatial and temporal variations of summer hot days and heat waves and their relationships with large-scale atmospheric circulations across Northeast China." International Journal of Climatology 38(15): 5633-5645. [7] Yang, Y., Z. Wu, H. He, H. Du, L. Wang, X. Guo and W. Zhao (2018). "Differences of the changes in soil temperature of cold and mid-temperate zones, Northeast China." Theoretical and Applied Climatology 134(1): 633-643. [6] Zhao, W., H. Du, L. Wang, H. S. He, Z. Wu, K. Liu, X. Guo and Y. Yang (2018). "A comparison of recent trends in precipitation and temperature over Western and Eastern Eurasia." Quarterly Journal of the Royal Meteorological Society 144(711): 604-613. [5] 高雅芳, 王雷, 杜海波, 吴正方, 杨岳, 郭湘宇, 李思其 (2018). "长白山苔原带土壤温度与肥力随海拔的变化特征." 冰川冻土 40(4): 702-714. [4] 李思其, 杜海波, 吴正方, 郭湘宇, 杨岳, 高雅芳, 马爽 (2018). "京津冀鲁豫地区空气质量变化特征及其气象驱动因素研究." 环境污染与防治 40(12): 1431-1435. [3] Wang, L., Z. Wu, H. He, F. Wang, H. Du and S. Zong (2017). "Changes in start, end, and length of frost-free season across Northeast China." International Journal of Climatology 37(S1): 271-283. [2] Wang, L., Z. Wu, H. He, F. Wang, H. Du and S. Zong (2017). "Changes in summer extreme precipitation in Northeast Asia and their relationships with the East Asian summer monsoon during 1961–2009." International Journal of Climatology 37(1): 25-35. [1] 郭湘宇, 吴正方, 杜海波, 王雷, 杨满根, 陈志彪 (2017). "福建省极端降水时空变化特征及其环流因素分析." 资源科学 39(6): 1084-1098. 第一作者文章: [13] H Du, L Xu, JJ Camarero, P Cherubini, MH Li, HS He, X Meng, Z Wu (2024). "Radial growth responses of Larix gmelinii to drought events in dry and wet areas of northern temperate forests." Dendrochronologia, 126185. [12] Haibo Du, Michael C. Stambaugh, J. Julio Camarero, Mai-He Li, Dapao Yu, Shengwei Zong, Hong S. He, and Zhengfang Wu (2023). "A comparison of pre-Millennium eruption (946 AD) and modern temperatures from tree rings in the Changbai Mountain, northeast Asia." Climate of the Past, 19: 1295–1304. [11] Du, H., M. G. Donat, S. Zong, L. V. Alexander, R. Manzanas, A. Kruger, G. Choi, J. Salinger, H. S. He, M.-H. Li, F. Fujibe, B. Nandintsetseg, S. Rehman, F. Abbas, M. Rusticucci, A. Srivastava, P. Zhai, T. Lippmann, I. Yabi, M. C. Stambaugh, S. Wang, A. Batbold, P. T. d. Oliveira, M. Adrees, W. Hou, C. M. S. e. Silva, P. S. Lucio and Z. Wu (2022). "Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate." Bulletin of the American Meteorological Society 103(4): E1130-E1145. [10] Du, H., M.-H. Li, C. Rixen, S. Zong, M. Stambaugh, L. Huang, H. S. He and Z. Wu (2021). "Sensitivity of recruitment and growth of alpine treeline birch to elevated temperature." Agricultural and Forest Meteorology 304-305: 108403. [9] Du, H., L. V. Alexander, M. G. Donat, T. Lippmann, A. Srivastava, J. Salinger, A. Kruger, G. Choi, H. S. He, F. Fujibe, M. Rusticucci, B. Nandintsetseg, R. Manzanas, S. Rehman, F. Abbas, P. Zhai, I. Yabi, M. C. Stambaugh, S. Wang, A. Batbold, P. T. de Oliveira, M. Adrees, W. Hou, S. Zong, C. M. Santos e Silva, P. S. Lucio and Z. Wu (2019). "Precipitation From Persistent Extremes is Increasing in Most Regions and Globally." Geophysical Research Letters 46(11): 6041-6049. [8] Du, H., J. Liu, M.-H. Li, U. Büntgen, Y. Yang, L. Wang, Z. Wu and H. S. He (2018). "Warming-induced upward migration of the alpine treeline in the Changbai Mountains, northeast China." Global Change Biology 24(3): 1256-1266. [7] Du, H., H. S. He, Z. Wu, L. Wang, S. Zong and J. Liu (2017). "Human influences on regional temperature change – comparing adjacent plains of China and Russia." International Journal of Climatology 37(6): 2913-2922. [6] Du, H., Z. Wu, S. Zong, X. Meng and L. Wang (2013). "Assessing the characteristics of extreme precipitation over northeast China using the multifractal detrended fluctuation analysis." Journal of Geophysical Research: Atmospheres 118(12): 6165-6174. [5] Du, H., Z. Wu, Y. Jin, S. Zong and X. Meng (2013). "Quantitative relationships between precipitation and temperature over Northeast China, 1961–2010." Theoretical and Applied Climatology 113(3): 659-670. [4] Du, H., Z. Wu, M. Li, Y. Jin, S. Zong and X. Meng (2013). "Characteristics of extreme daily minimum and maximum temperature over Northeast China, 1961–2009." Theoretical and Applied Climatology 111(1): 161-171. [3] Du, H., Z. Wu, M. Li, S. Zong and X. Meng (2012). "Quantitative division of vegetation ecotones in Northeast China." Applied Ecology and Environmental Research 10(3): 319-332. [2] Wu, Z., H. Du, D. Zhao, M. Li, X. Meng and S. Zong (2012). "Estimating daily global solar radiation during the growing season in Northeast China using the Ångström–Prescott model." Theoretical and Applied Climatology 108(3-4): 495-503. [1] Du, H., Z. Wu and M. Li (2011). "Interdecadal changes of vegetation transition zones and their responses to climate in Northeast China." Theoretical and Applied Climatology 106(1): 179-188.

社会兼职

获奖情况 (数据来源:科学技术处、社会科学处)

教学信息 (数据来源:教务处)

  • 地图学与地理信息系统(硕士)
  • 全球气候变化
  • 自然地理学(硕士)
  • 临班203
  • 自然地理数据处理与分析
  • 地理基础实验:气象学与气候学
  • 全球环境变化
  • 气象学与气候学

科研信息 (数据来源:科学技术处、社会科学处)

  • 项目:
  • 1. 长白山森林主要建群种径向生长对水热胁迫变化的响应研究,国家自然科学基金项目,2022年
  • 2. 长白山苔原带土壤微生物对气候变化的响应(主题科学家专项),省、市、自治区科技项目,2019年
  • 3. 长白山树种线对气候变化响应研究,省、市、自治区科技项目,2018年
  • 4. 基于炭化木的长白山火山喷发测年与植被重建,国家自然科学基金项目,2016年
  • 5. 长白山林线动态对全球气候变化的响应研究,其他课题,2016年
  • 论文:
  • 1. Growth responses to climate warming and their physiological mechanisms differ between mature and young larch trees in a boreal permafrost region,AGRICULTURAL AND FOREST METEOROLOGY,2023年
  • 2. Observed and projected changes in wet and dry spells for the major river basins in East Asia,INTERNATIONAL JOURNAL OF CLIMATOLOGY,2023年
  • 3. Impact of historical pattern of human activities and natural environment on wetland in Heilongjiang River Basin,FRONTIERS OF ENVIRONMENTAL SCIENCE & ENGINEERING,2023年
  • 4. A comparison of pre-millennium eruption (946 CE) and modern temperatures from tree rings in Changbai Mountain, Northeast Asia,CLIM PAST,2023年
  • 5. Comparing simulated tree biomass from daily, monthly, and seasonal climate input of terrestrial ecosystem model,ECOLOGICAL MODELLING,2023年
  • 6. Deyeuxia angustifolia upward migration and nitrogen deposition change soil microbial community structure in an alpine tundra,SOIL BIOLOGY & BIOCHEMISTRY,2023年
  • 7. Cotton cultivated area detection and yield monitoring combining remote sensing with field data in lower Indus River basin, Pakistan,ENVIRON MONIT ASSESS,2023年
  • 8. More frequent consecutive extreme precipitation in the dry regions of China,INTERNATIONAL JOURNAL OF CLIMATOLOGY,2022年
  • 9. Extreme Precipitation on Consecutive Days Occurs More Often in a Warming Climate,B AM METEOROL SOC,2022年
  • 10. Age-related growth responses of birch to warming along an elevational gradient on Changbai Mountain,EUR J FOREST RES,2022年
  • 11. Upward range shift of a dominant alpine shrub related to 50 years of snow cover change,REMOTE SENSING OF ENVIRONMENT,2022年
  • 12. Vegetation greenness variations and response to climate change in the arid and semi-arid transition zone of the mongo-lian plateau during 1982-2015,REMOTE SENSING,2021年
  • 13. Sensitivity of recruitment and growth of alpine treeline birch to elevated temperature,AGRICULTURAL AND FOREST METEOROLOGY,2021年
  • 14. Nitrogen and litter addition decreased sexual reproduction and increased clonal propagation in grasslands,OECOLOGIA,2021年
  • 15. 近60年中国持续极端降水时空变化特征及其环流因素分析,长江流域资源与环境,2020年
  • 16. Effects of winter chilling vs. spring forcing on the spring phenology of trees in a cold region and a warmer reference region,SCI TOTAL ENVIRON,2020年
  • 17. Decreasing precipitation occurs in daily extreme precipitation intervals across China in observations and model simulations,CLIM DYNAM,2020年
  • 18. Responses of Korean Pine to Proactive Managements under Climate Change,FORESTS,2020年
  • 19. Quantifying the Relative Importance of Climate Change and Human Activities on Selected Wetland Ecosystems in China(SSCI),sustainability,2020年
  • 20. Changes in Extreme Precipitation Over Dry and Wet Regions of China During 1961-2014,JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES,2019年
  • 21. Precipitation From Persistent Extremes is Increasing in Most Regions and Globally,GEOPHYS RES LETT,2019年
  • 22. Potential Distribution Shifts of Plant Species under Climate Change in Changbai Mountains, China,FORESTS,2019年
  • 23. Spatiotemporal changes in the Aeolian desertification of Hulunbuir Grassland and its driving factors in China during 1980-2015,CATENA,2019年
  • 24. Topographic Controls on Vegetation Changes in Alpine Tundra of the Changbai Mountains,FORESTS,2018年
  • 25. 京津冀鲁豫地区空气质量变化特征及其气象驱动因素研究,环境污染与防治,2018年
  • 26. Differences of the changes in soil temperature of cold and mid-temperate zones, Northeast China,THEOR APPL CLIMATOL,2018年
  • 27. Distribution and Driving Factors of Forest Swamp Conversions in a Cold Temperate Region(SSCI),INTERNATIONAL JOURNAL OF ENVIRONMENTAL RESEARCH AND PUBLIC HEALTH,2018年
  • 28. 长白山苔原带土壤温度与肥力随海拔的变化特征,冰川冻土,2018年
  • 29. Long-Term Impacts of China’s New Commercial Harvest Exclusion Policy on Ecosystem Services and Biodiversity in the Temperate Forests of Northeast China(SSCI),SUSTAINABILITY,2018年
  • 30. Variations in the start, end, and length of extreme precipitation period across China,INT J CLIMATOL,2018年
  • 31. A comparison of recent trends in precipitation and temperature over Western and Eastern Eurasia,Q J ROY METEOR SOC,2018年
  • 32. Warming-induced upward migration of the alpine treeline in the Changbai Mountains, northeast China,GLOBAL CHANGE BIOL,2018年
  • 33. 停止商业性采伐对大兴安岭森林结构与地上生物量的影响,生态学报,2018年
  • 34. Typhoon diverged forest succession from natural trajectory in the treeline ecotone of the Changbai Mountains, Northeast China,FOREST ECOL MANAG,2018年
  • 35. Changes in start, end, and length of frost-free season across Northeast China,INT J CLIMATOL,2017年
  • 36. 湿地景观模拟模型的研究与应用,湿地科学,2017年
  • 37. 福建省极端降水时空变化特征及其环流因素分析,资源科学,2017年
  • 38. Human influences on regional temperature change - comparing adjacent plains of China and Russia,INT J CLIMATOL,2017年
  • 39. Recent and future changes in the combination of annual temperature and precipitation throughout China,INT J CLIMATOL,2017年
  • 40. Changes in summer extreme precipitation in Northeast Asia and their relationships with the East Asian summer monsoon during 1961-2009,INT J CLIMATOL,2017年
  • 41. 高山林线形成机理研究进展,应用生态学报,2016年
  • 42. 长白山苔原带优势植物种的分布格局及其关联性研究,地理科学,2016年
  • 43. Comparative analysis of the extreme temperature event change over Northeast China and Hokkaido, Japan from 1951 to 2011,THEOR APPL CLIMATOL,2016年
  • 44. Nitrogen deposition but not climate warming promotes Deyeuxia angustifolia encroachment in alpine tundra of the Changbai Mountains, Northeast China,SCI TOTAL ENVIRON,2016年
  • 45. Comparative analysis of the characteristics of extreme temperature changes between cities and mountains in China,THEOR APPL CLIMATOL,2015年
  • 46. 长白山西坡小叶章侵入苔原带过程及影响,生态学报,2014年
  • 47. 长春市木本植物春季物候对气候变化的响应,中国农学通报,2012年
暂停信息维护